Recovery of light oil from absorbent



June 14, 1949.l F. DENIG RECOVERY 0F LIGHT OIL FROM ABSORBENT Filed Dec. 24, 1941 221.-. Uli-l2 Nh duksuzunlbw UNE- Foul J-O Erniuu ...ian novos.

INVENTOR Fneo Dama.

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BYv

Patented `lune 14, 1949 UN [TED STATES PA'IE l'l'lvv OFFICE RECOVERY or mehr om FROM ABORBENT Fred Deng, Pittsburgh, Pa., assigner, by mesne assignments, toKoppers Companyt Ina., acor poration of Delaware claimsi (o1.v isti-s) The present invention relates in general to-ime pro'venientsl in method and means for there*-v covery of light-oil vapors from gases, and the like, and rnore particularlyfrelates to improvements in meth-odsv `furthe removal of llight oil from absorbent agents, such, for example, as absorbent oils'that areemployed in light-oilre covery systems of by-produ'ct coke plants, forin- St'r'le.

' Customarily, light' oil, comprising aromaticA compounds 'such as"b`enzene',"its homologues and derivatives, is removed from gases produced by the destructive distillation of' fuels, and the like.y by scrubbing the samev with' a recycled absorbent oil followed by a vstep for stripping' so-absorbed iight oil from the said' absorbent oil. In almost universal practice'the recovery ofthe' absorbed light oil4 in such stripping? step has'hitherto been acoom'plishedfby preheating of the enriched abl sorbent. oilwith, indirect steam to temperatiires` of about 10'0." '.C.'to 1'403'0. and thereafter passe ing direct steamy through the heated enrichedv oil, the direct lsteam functioning as a Sweep gas or vapor. In certain instances, the preheating of the enriched absorbent oil has been accomplished by its heating by' direct. flames; such direct'heating, however, often causes deterioration of the' absorbent oil by local overheating' due to. effects on heater surfaces and the difficulty of equally distributing heat from such a source. Where high-temperature Steam is employed as the preheating medium, highfp'ressu're equipment is required to 'confine it. at the required' tempera;- ture and the vuse ofsuch eduipinent'also requires 2 the processeszorapparatus hereinafter described orclanncd.. It is Well known to those skilled in the art that an-` improved stripping of enriched absorbent Yoil can. be obtained in the said customary recovery method by elevatingv appropriately the tempera tureof preheating.. of the enrichedabsorbentfoil which vincreases the efficiency ofv removal .of abl sorbed light oil and consequently the absorptive i capacity; of theI absorbent oilzwhen it is recycled tothe absorption step. Efficiency of absorbed llghteoil removal alsof. results-from increasing `the quantity Oistriiiping steam. The former ex-` pedient ofcourse. requires .steam at yet higher and-more hazardousgpressures,and. also more resistant andexpensive equipment for itsv deliveryl and both `expediente are` disadvantageous. and aretz/nado unnecessary by the present improvements.

Brieystateiin the methodv of the presentinvention, enriched absorbent oil issuing from the; above-'stated gas'scrubbin'g step of a light-oil rea covery'V plant. is heatedA to at least substantially about 200 Cf.k byindirect contact with ythe vapors of a substance, ormixtureof substances, of which itsVA own boiling point:r at. atmosphericy pressure is at least above about theV said temperature of 200 C., the so'heatetl` enriched absorbent oil be ingA then: flowed. through a stripping. step Where it ist. brought into direct contact with a small amount of steam for sweeping the absorbed light oil therefrom. The so-stripped' light oil is re'- rnoved: asf v-alsorV and may .be ypartially condensed and fractionatedin` `a light-oil rectifier from the services of highly-trained technicians. In l which heavy-'solvent is oweda to storage, and the addition, the possibility ofruptures in distriburectied light-oil vapors issuing therefrom are tion pipes therefor inthe light-oil recovery sysflowed to condensing means. The hot stripped' tems constitutes a-Serious nre hazard." absorbent oil may be' cooled by oil-'to-oil heat exe` Amongst the objects of" the present invention changers and by` coolersv and thereafter recycled are novel and practical' improvements in the dei 401 to" the y gas-scrubber for absorption of further.

scribedA method, for recoveryv 'of light oil fromVU gases, that provide means both for obtaining inrproved stripping of the enriched absorbent oil and consequently ehhanced" yields of light oil-i from systems employingy such methodl'and foreliroinatlng high pressures throughout the light--v oil' reoovery" system and alsoexpensive equipment that employmentof such pressures has heretos fore necessitated.

' A further object ofthe' invention is'thefproe' vision of a highly efcient; vlight-oil recovery sys-A tem that shows-improved thermal eiciency. y

`The i'nvent'i'onfor furtherobjec-ts such'v ther'improi/emerlts and such other operative advantages or results as nray be found toA obtain ina quantities oflight oil.4 In the practice; Dowthermi which isa Aeutectlc mixture of. diphenyl and olii phenyloxide', 4has been found to be a. useful ma'-V terial fory the present' purpose, but it is of course' obvious that other organic substances or mix-1v tures conforming toI the-above-stated characteristics arie useful' fory the present purpose aswell asalso certain inorganic substances', for example, elemental mercury'.

I By means of the present improvement, it become'si'advantageously practical, in a coke-plant lig'h'tfoil recovery system, employing the usual high-shelling absorbent .oils v(normally employed. absorbent oil, such as straw or wash oil, has a-boiling range oflabouti280s 380 C.) for extrae-'f tion of the light oil from coke-oven gas, continuously to recondition by distillation a minor amount of the bulk of the recirculated absorbent oil with dry superheated steam of low pressures, for the purpose of maintaining those constituents, which accumulate in the oil and otherwise gradually cause an increase in its viscosity and also troublesome emulsications thereof, at a level whereat Well-known inconveniences resulting from their presence is obviated.

In the accompanying drawing forming a part of this specification and showing for purposes of exemplication a preferred apparatus and method in which the invention may be embodied and practiced but without limiting the claimed invention specifically to such illustrative instance or instances, the single figure is a diagrammatic elevational view of apparatus, parts broken away, for the recovery of light oil from gas in accordance with the present invention. Referring to the drawing, the light-oil scrubber Il! is disposed in a stream of gas issuing from a by-product coke-oven plant. Gas containing light-oil vapors enters the said scrubber at inletgas pipe I2, ascends through hurdles within said scrubber I and gives up light-oil vapors to absorbent oil, that is introduced into the top of said scrubber, said gas thereafter leaving the scrubber through pipe I3 in the direction indicated by the arrows in the drawing. The said absorbent oil is delivered to the top of the lightoil scrubber by spray-header delivery pipe I4 and is sprayed thereinto by a plurality of nozzles i5, and flows downwardly over said hurdles countercurrently in respect of the gas flow, in the customary manner of light-oil scrubber operation.

The light-oil enriched absorbent oil is withdrawn from the bottom of the scrubber by pump I'6 through pipe I1 and is forced by said pump through line I8 to oil-to-oil heat exchanger I9 wherein the said enriched absorbent oil is heated by indirect contact with hot stripped wash oil coming from the wash-oil still. Previous diniculties encountered in the use of an oil-to-oil heat exchanger are, in consequence of the present invention, substantially eliminated, as above mentioned, by hereinafter described means that it provides for continuously removing, from recirculated wash oil, those contaminants which would otherwise form deposits on the heat-exchanger tubes and thereby seriously interfere with enicient heat transfer.

Enriched wash oil, having been partially preheated in heat exchanger I9, and while still under pressure of pump I6, passes through feedline 22 into final heater 20. Herein, the said wash oil is flowed inside preheater-tubes 2l where it is heated by indirect contact with saturated vapors of Dowtherm issuing from boiler therefor, and owing to said nal heater through vapor-riser 32. The cooled Dowtherm is returned from the iinal heater through pipe line 33, the lower portion of which is U-shaped to form a seal 34 that is vented to vapor-riser 32 by pipe 35. From the said seal 34 the condensed Dowtherm can be returned to the boiler 30 through return pipe 36 whence it can be drained if required through drain lne 31 to the boiler drain tank 38 for purposes of storage.

The high-temperature boiler 30 wherein is produced at substantially atmospheric pressure the saturated vapors of Dowtherm, or its equivalent, to preheat the enriched absorbent oil, is advantageously of smaller size than a steam boiler would be that were adapted for'delivering an equivalent amount of heat to the lightoil recovery system. Boiler 30 is heated directly by gas burned at nozzles 39 and delivered thereto through gas pipe 40. Liquid Dowtherm, that may be required for make-up purposes, is drawn from storage through pipe 42 by pump 43 which is also employed to circulate hot liquid Dowtherm to other features of equiment for purposes hereinafter described. Both heated liquid Dowtherm and its vapors are variously employed at substantially atmospheric pressure to supply heat for performing hereinafter described operations in the complete process, thereby providing means for the eiicient recovery, and distillation into preferred fractions, of light oil without the use of high-pressure steam or costly apparatus required for employing the latter.

Hot enriched wash oil is fed from final heater 20 through still feed line 44 to an intermediate bubble-cap tray of a plurality of superposed trays in wash oil still 50. The said wash oil still 50 is functionally divided into two communicably interconnected sections by means of piping that diverts liquids collected, on one of said intermediate trays, away from the still column to a water separator 55, liquid level on such tray being controlled by appropriate disposition of a weir. The upper section 52 of still 50 and which is liquid-sealed, but not vapor-sealed, from the lower section 53, so as to prevent the direct ow of liquids to the said lower section, contains horizontally superposed, bubble-cap trays wherein light oil and wash-oil vapors are fractionated. Light oil that is delivered for purpose of reflux to said upper section 52 to assist in removal of the unusually high proportion of wash-oil vapors that reach the upper part of the still in consequence of the high temperature at which the present process of stripping is performed, flows downwardly and countercurrently to the ow of said vapors. Condensate, lcomprising oil and water that collects on the lowest tray of the upper section, is owed through separator-feed line 54 to a water separator 55 of conventional design wherein the water-fraction is removed by a gravity separation from the oil phase and is discarded through drain line 56. The said separator is vented to the still column by vent pipe 5I. The oil from which most of the water has been thus removed is flowed through separator return-line 51 to the top tray of said lower section 53 down through which the said oil ows while being substantially completely stripped of its light-oil components by direct contact with countercurrently owing wash-oil vapors and steam.

A portion of the wash oil is withdrawn from an upper bubble-cap tray of the said lower section 53 and is transferred by pipe 53 to a washoil purier 60, wherein low-pressure superheated steam is used directly as a sweep-vapor to vaporize wash oil from its non-volatile contaminants. Low-pressure steam from any source is supplied through pipe 59 to a superheater 6I wherein the said steam is superheated by indirect contact with Dowtherm vapors that are supplied thereto from vapor-riser 32 through pipe 62 and are returned through return line 63 to pipe 33 at the base of U-shaped seal 34. The thus-superheated steam ows through steam-line 64 to the said wash-oil purier 60 and is discharged thereinto from its cracker pipe 65. The superheated steam of advantageously high temperature and low pressure vaporizes wash oil delivered into the purifier 60 and thus removes it from sludge and sorted lightoil fioulA l couhteicurreutiy flowing wash oiljlii the-stripe 'resection 53er lthe stillv colujifiii,'the Wash-oliveto@ `beinel condensed-aud so returned to lthe recycled jbody themed', whereas thelight-oil veters and `sterili continuetoy the iiots'tri'piojed `Wash oilthat collects in the lower part or'st-i'llescctioii t3 is drained therefrom throngh fjp'iloc 1 2 ehd is through lil'e Iiftothe =o'ilo-oil heat'exchaiigfe ls' ereih said stripped wesh yoil isccol-edjby' "ined by pump 'nl f oil. The `strippedl wash 'oil yis further 'oledvv ih Washl-o'll 'cooler 1l, by indirect vcontact with Water, from which titis iiow'd through pipe 'I5 to a circulating tank 16. From this saideta'nl': wash'oilis puinped by pumpr 'i1 through pipe llfto the aforementioned spray header delivery pipe Il! 'from which the wash oil i's sprayed'by nozzles I5 into` Contact With further quantities of gas, thereby completing the'cycle of the' recir'cillated wash oil. The hightemperature to 'which vthe inflowing enriched wash oil is prec heated and the Yinairltenan'ce of ya high temperatre within the wash-'oil still vprovide an erlicieiflt aridfl'iearly 'complete removal of light oil from the Said enriched oil, even though employing, as herein-before noted, no high-pressure equipment, and such complete reif'r'loval of light oil from wash oil in turn rprovides for improved eiciency of scrubbing! with the so-stripped Wash oil, of the light oil fromv the gas.' Light-oil vapors substantially free of wash-'oil vapors pass from still 50 `throthgh still-vapor line 8U t0' light-oil rectifier 82. The Saidv light-Oil reoti'er is composed of two sections' of supere posed bubble-cap trays. The one or more trays of its lower section 83 are equipped with steam coils 84, steam being supplied to Saidcoilsv through line 85 to separate lo'y distillation the lo'w'er'eboiling llght`o`il constituents from those' hifghereboi-ling ones entering said rectier. The

said higher-boiling constituents, that are calle'd' intermediate light oil and comprise the xylenes,V

heavy solvent, and the like, drain from the rectie fier 'through pipe 86., that is provided with 'a seal-l andw'ith'a vent pipe' 81, and flow to interm'edi'at'eu light-"oil Astorage tank 88.

Vaporiz'ed lowereboiling light-oil constituents rise-freni said stripping section 33 into an upper;

rectiliyin'g section 89 that also comp-rises Va plurality of 'bubble-cap trays, the said rising vapors pas-sing thercinto through liquid retained on a dividing'bubble-'cap tray which has provision to allow p'asage of vapors therethrough-but which has no downoorner for the return to a lower tray ofthe liquid retained thereon rbut instead is supe' p'l'i'ed'w'i'th an overow wer and a separator feedl line "9*'2 rolfk drainingv liquid"nom the tray' to a water 'separator 9U of lconventional design similaritofthatof previously described `water sepa rater "5.5. Liquid Icondensing on the lowest bulojr b'l'ee'cap tray of rectifying section I89 iS transferred through the separator ieeidlihe faz-to the seid sep@ arator' Mlwherein water that concentrates on "the:

vsei-li lotv'eet tray is removed thy esepareitioh fiorit-1 a' light-'oil phase andflsdiscarded through diair'r pipe 9s. supeifheteiitliehi 4l said" rectiner '82 thi e4, The separators" loyvcht pipe enicegof ety redux -ofi su liowih vapoistatoitljm ghi/ep light-oil c;ouden-'serv rfwheiein they e" cone-- dense-d. The" condensedsecondary/ light Aollolr'np'risihgthe seid 'ldwere g1"o'om'peri/ents such,l for ved:aiilple; ee heldzeh e, leontihuouslyjdise charged from the seid light-oil conclelr'ls'e'rl through line' 9a' to' secondary=i`ightoll separator 9e thati-s vented lto "atmosphere by vehtpiii lli and wherein "further `diiautitles 'of water are Sah lowed 'to settle 'frcdigthe seid light oil 'and te siphoned therefrom by di-'ein pipe l u2.v secon-de aryligjhtoirreldti ely free-of wat-'ems with from thejsepaiatcrethiough pip-e 'l o3 to a pumping teni; mi; from which major portion of 'ea'icl light oil is'gcont'rluously dischargedthrough/ pipey lll-5 4to a secondary light-oil 'storage `teuuqflU6. Another portion :of thesa'idsecmdary 'iightoil continuously Witildlfaw.n )oy Inl'yfroih the pumping tank 'U4 through ,pipe I0`8jil`v 4e `it is returned through@ 'e l and refluxv es llt' arid 'llt to the iigh il rectifier edvvasiffi-"oii still respectively wherein' the said klient oil einlilloyeol' as' reflj f Tiratrate of Tlwothe re-lui:Y niai-taln a' pieer eah 'lfn i's'reg atfefd ,by valves I I3., i. I I,4aid` I'I` 5 at 'the alooveeiniitioiiedreflux' rines.v

"Intermediate .and eeconddrylight oils that are recovered bythe 'above-described cyclic absorptio`r`1`aridtfpping 4p'l'ocess are stored in the said storage 'tanks-for any .preferred dispositn'suoh, for example, ascfs'tinfaryhltreatinent 'to produce pure products `For example, the iso-produced secondary liglitjoi'l cari be distilled in motc'lrffuel rectify/ing column 'I I tot p'rodlly a high-grade rnotor-benzol, Therectification vof secondary light Oil as pectieed "br the presentimienmenttforlprodution of lbenzoly -iuther ein'phasizesl the-importantfutil of such high--l boiling dsubstances l asrDowtherm Vthe recovery and .refinirlgo f crudelight oil.` In this casey the :ifnotorH -fuelgreboiler I I'I of lthe said column I'Ili isk heatedby het liquldfDowtherm that is circula-ted by pump 4I3 *through `thev circuitcomprising the saldqpurn-p, pipe IIB to the reboiler., and pipe 3119;, in return therefrom. The temperature fof @hemelse-circulated Dowthermliquicljisv maintained' at-a .preferred level,l which in one example of 'opera-tion was at about 160 C.,- by adjustnrlenft;fof;control valve I2!) in4 pipe IQI connecting the said Jp-ip'e H8v to the 'Dowtherm boiler `v3i), whifohf said adjustment can begoorrt'rolledzautomatioaily by :means of apparatus re*- sp'onsiv-e to Achanges in temperature on a tray 'of' rectifying column :H6 to :maintain a preferred temperature-'in 'the latter. When `the tempera# turev ofv the soi-circulated; liquidI Dowt-herm drops be'lo'w thm-preferred ile-veil, hot- `liquid lDowthe/iniiA oanflcle'y pumped -from Lcondensatev return pipe 38 and seall34, into thfsaidecircuit soia-s to fraise 'the temperature of the partially-'loomedcirculated liquid-ithefreduired fdee'ree, suohadnlissioh of hot Dowthertnli lldinto trief-olosed liquid system being per ittedfo'yithe yFellini;iYtheiicfroih of sube. s'tafritifeil'ly fait eeuuivaieiit vol-unterer the vparisien yi duction ci' the 7 cooled circulated Dowtherm through the pipe l2l by opening the control valve therein.

In a plant constructed and operated according to the principles of the present invention, cokeoven gas was scrubbed at temperatures from to C. by a petroleum wash oil flowing countercurrently to the ow of the said gas and down over banks of hurdles contained in scrubber apparatus disposed in series in respect of the said gas flow. Customarily, about 150 gallons of wash oil per ton of coal carbonized are circulated.

The benzolized Wash oil was thereafter heated in an oil-to-oil heat exchanger I9, to approximately 150 C., and was thereafter heated to about 205 C. in a preheater 20, by vapors of Dowtherm A a eutectic mixture of 26.5% diphenyl and '73.5% diphenyl oxide which -boils at 258 C. at atmospheric pressure). The relatively high temperature of the Dowtherm vapors even at atmospheric pressure provides suiiiciently high temperature-differential between its vapor and the sbenzolized wash oil that the latter can be preheated to at least about 200 C. in a iinal heater of approximately one-third the size formerly required for preheating at the same rate a given I quantity of benzolized wash oil to the usual lower temperature of about 140 C. The operation of the Dowtherm boiler is substantially automatic and since its operating gauge pressure is but three to iive pounds per square inch, a licensed engineer is not required for its operation.

If, as a result of the high-temperature heating of a given wash oil, deterioration thereof is observed, a wood distillate can be added that materially inhibits such deterioration.

The raising of the temperature of the benzolized wash oil to 200 C. from the more customary 120 C. increases by as much as iive fold the vapor pressure of absorbed light oil, when it is contained in the Wash oil to the extent of about 1.5% of the same by volume. This increased vapor pressure facilitates the removal of the lightoil constituents to such degree that a greatly reduced volume of stripping steam is required therefor. In addition to the resultant saving in steam costs, the decreased requirement of steam makes possible the use of an importantly smaller still for its supplying and for correspondingly smaller condensers, water separators, and like related equipment of the system. A further advantage resides in the resultant decrease in the volume of water condensed with the light-oil vapors, such water presenting an annoying disposal problem because of its tendency to extract phenols present in the light oil.

In the light-oil rectifier 82, which in the given example of operation showed a top vapor tem perature of approximately 90 C., the light-oil vapors effluent to the wash-oil still 5i! are rectified with an added reilux of secondary light oil thereby to separate the said light-oil vapors into secondary and intermediate light-oil fractions. The distillation range of both the intermediate and of the secondary light-oil fractions and consequently their contents of intermediate-boiling constituents can be controlled by the quantity of steam supplied to the said rectiiier heating-coils and by this means preferred constituents of said intermediate, such, for example, as styrene, can be preferentially directed to either the one or the other said light-oil fraction.

It is an obvious and economically important advantage of the present invention that the high yields and eiiicient operation of the method thereof can be obtained by low-cost installations in plants having a fixed boiler capacity that would be inadequate for delivery of additional quantities of steam to a light-oil recovery system.

In further demonstration of the utility of employing at novelly high temperature vapors of Dowtherm, or the like, in a system for the recovery of light oil from coke-oven gas it should be also noted that the low-pressure steam employed for stripping purposes in the Wash-oil still 50 and the light-oil rectier 82 can also be generated by waste heat from the Dowtherm vapor.

It is of further noteworthy advantage in the operation of the novel process that the delivery of steam in dry, superheated form to the washoil purier and to the portion of wash oil therein avoids frothing or bumping within the purifier, such dry, superheated steam having sufficient sensible heat substantially completely to volatilize wash oil from its undistillable contaminants without condensation of the said inowing steam.

The invention as hereinabove set forth is embodied in particular form and manner but may be variously embodied within the scope of the claims hereinafter made.

I claim:

1. A process for the recovery of light-oil vapors from coke-oven gas containing the same by means of an absorbent oil, that is recycled in sequence through a step for absorbing light-oil vapors from said coke-oven gas and a step for stripping soabsorbed light oil from said absorbent oil by direct Contact with steam, and that in the course of said recycling accumulates undistillable contaminant which reduces its effectiveness in said absorption step, said process comprising the steps of: prior to introduction into said stripping step, heating absorbent oil effluent from said absorption step to a temperature of at least about 200 C. by indirect contact with vapor of a boiling substance that is at substantially atmospheric pressure and at a temperature of at least about 200 C. and also superheating said steam at low pressure by indirect contact with vapor of said boiling substance, introducing so preheated absorbent oil into said stripping step and withdrawing from near the absorber oil inlet end thereof a minor portion of the bulk thereof into a distillation step for the same, and flowing said superheated steam rst into direct contact with said minor portion of hot absorbent oil thereby simultaneously volatilizing without substantial condensation of the steam absorbent-oil constituents from the minor portion, rejecting absorbent-oil residuum from said minor portion distillation, thereafter introducing the steam and volatilized absorbent oil from the minor portion distilling step into said stripping step, and eiecting the stripping therein substantially solely with the stripping steam and vapors from the aforesaid minor portion distillation prior to withdrawal of the said minor portion from the stripping step to the minor portion distillation step.

2. In a process for the recovery of light-oil vapors from coke-oven gas containing the same by means of an absorbent oil, that is recycled in sequence through a step for absorbing light-oil vapors from said gas and a step for stripping soabsorbed light oil from said absorbent oil by direct contact with steam, and that in the course of said recycling accumulates undistillable contaminant which reduces its effectiveness in said absorption step: reconditioning said contaminants-containing absorbent oil by the steps of, preheating the absorbent oil from the absorption step prior to entering the stripping step to a temperature of 200 C. by indirect contact with a vapor of an organic compound that is at a temperature of at least 200 C. and at atmospheric pressure and of which its own boiling point at atmospheric pressure is above about 200 C., withdrawing from near the absorption oil entrance end of said stripping step a minor portion of the recycled wash oil that has been previously preheated to at least about 200 C. and flowing therethrough a quantity of low pressure superheated steam that is substantially sui'iicient to volatilize the oily portion of the so-withdrawn absorbent oil and to leave said contaminants as residuum, and flowing such steam and volatilized constituents into the absorbent oil exit end of such stripping step, such steam being sufficiently superheated to avoid condensation in contact with said withdrawn absorbent oil thereby to avoid bumping and frothing of the latter, and effecting the stripping in the stripping section substantially solely by the steam and volatile portions from such minor portion.

3. In a process for the recovery of light-oil vapors from coke-oven gas containing the same by means of an absorbent oil, that is recycled in sequence through a step for absorbing light oil vapors from said coke-oven gas and a step for stripping so-absorbed light oil from said absorbent oil by direct contact with steam, and that in the course of said recycling accumulates undistillable contaminant that reduces its eitectiveness in said absorption step, said pro-cess comprising, preheating absorbent oil eiiiuent from said absorption step to a temperature of at least about 200 C. by indirect contact with vapor of a boiling substance that is at substantially atmospheric pressure and at a temperature of at least about 200 C. and also superheating said steam at low pressure by indirect contact with vapor of said boiling substance, the steps of: introducing sopreheated absorbent oil into said stripping step and withdrawing from near the stripped vapor outlet end thereof a minor portion of the bulk thereof into a distillation step for the same, and flowing said superheated steam into direct contact with said minor portion of hot absorbent oil and thereby volatilizing, without substantial condensation, absorbent-oil constituents into said stripping step, rejecting absorbent-oil residuum from said distillation, and eiecting the stripping in the stripping step substantially solely by the steam and volatiles from the distillation step for the minor portion.

4. In a process for the recovery of light oil vapors from coke oven gas containing the same by means of an absorbent oil, that is recycled in sequence through a step for absorbing light-oil vapors from said gas and a step for stripping soabsorbed light oil from said absorbent oil by direct contact with steam, and that in the course of said recycling accumulates undistillable contaminant which reduces its eiectiveness in said absorption step; reconditioning said contaminants-containing absorbent oi1 by the steps of, preheating the absorption oil from the absorption step prior to entering the stripping step to a temperature of 200 C., withdrawing from near the absorbent oil entrance end of said stripping step a minor portion of the recycled wash oil that has been previously preheated to at least 200 C.

' and flowing therethrough a quantity of low pressure superheated steam that is substantially sufflcient to volatilize the oily portion of the sowithdrawn absorbent oil and to leave said contaminants as residuum, and iiowing such steam and volatilized constituents into the absorbent oil exit end of such stripping step, such steam being sufficiently superheated to avoid condensation in contact with said withdrawn absorbent oil thereby to avoid bumping and frothing of the latter, and effecting the stripping in the stripping section substantiaily solely by the steam and volatile portions from such minor portion.

5. In a process for the recovery of light-oil vapors from coke oven gas containing the same by means of an absorbent oil, that is recycled in sequence through a step for absorping light-oil vapors from said gas and a step for stripping soabsorbed lignt oil from said absorbent oil by direct contact with steam, and that in the course of said recycling accumulates undistllable contaminant which reduces its effectiveness in said absorption step; reconditioning said contaminants-containing absorbent oil by the steps of, withdrawing from near the absorbcntoil entrance end of said stripping step a minor portion of the recycled wash oil and iiowing therethrough a quantity of low pressure superheated steam that is substantially sucient to voiatilize the oily portion of the sii-withdrawn absorbent oil and to leave said contaminants as residuum, and iiowing such steam and volatilized constituents into the absorbent oil exit end of such stripping step, such steam being suciently superheated to avoid condensation in contact with said withdrawn absorbent oil thereby to avoid bumping and frothing of the latter, and ei'ecting the stripping in the stripping section substantially solely by the steam and volatile portions from such minor portion.

FRED DENIG.

REFERENCES CITED The following reierences are oi record in the of this patent:

UNTED STATES PATENTS Number Name Date 991,205 Hirzel May 2, 1911 1,560,137 Bernard Nov. 3, 1925 1,595,683 Burrell et al Aug. 10, 1926 1,675,462 Pew July 3, 1928 1,691,238 Funk Nov. 13, 1928 1,802,942 Gevers Apr. 28, 1931 1,869,611 Nichols et al Aug. 2, 1932 1,898,579 Gard Feb. 21, 1933 1,916,349 Van Ackeren July 4, 1933 2,006,411 Rosenstein July 2, 1935 2,129,787 Schmalenbach Sept. 13, 1938 2,164,593 Rector July 4, 1939 2,183,604 Barton et al Dec. 19, 1939 2,196,878 Stover Apr. 9, 1940 2,218,495 Balear Oct. 15, 1940 2,224,984 Potts et ai. Dec. 17, 1940 2,262,202 Ragatz Nov. 11, 1941 2,299,283 Schmalenbach O'ct. 20, 1942 2,335,162 Shiras Nov. 23, 1943 OTHER REFERENCES Dow Chemicals, published by Dow Chem. Co. 1934), page 32.

Dow Chemicals, a booklet, 1929, page 55.

Dow Chemicals, a booklet, 1934, page 33.

Dowtherm for High Temperature I-Ieat Transfer Systems, 3rd edition, 1940, obtainable from the Dow Chemical Company, Midland, Michigan. 

